Construction of PEGylated chlorin e6@CuS-Pt theranostic nanoplatforms for nanozymes-enhanced photodynamic-photothermal therapy

Multifunctional nanoagents with photodynamic therapy (PDT) and photothermal therapy (PTT) functions have shown great promise for cancer treatment, while the design and synthesis of efficient nanoagents remain a challenge. To realize nanozyme-enhanced PDT-PTT combined therapy, herein we have synthesized the Ce6@CuS-Pt/PEG nanoplatforms as a model of efficient nanoagents. Hollow CuS nanospheres with an average diameter of similar to 200 nm are first synthesized through vulcanization using Cu2O as the precursor. Subsequently, CuS nanospheres are surface-decorated with Pt nanoparticles (NPs) as nanozyme via an in-situ reduction route, followed by modifying the DSPE-PEG5000 and loading the photosensitizer Chlorin e6 (Ce6). The obtained Ce6@CuS-Pt/PEG NPs exhibit high photothermal conversion efficiency (43.08%), good singlet oxygen (O-1(2)) generation ability, and good physiological stability. In addition, Ce6@CuS-Pt/PEG NPs show good catalytic performance due to the presence of Pt nanozyme, which can effectively convert H2O2 to O-2 and significantly enhance the production of cytotoxic O-1(2). When Ce6@CuS-Pt/PEG NPs dispersion is injected into mice, the tu-mors can be wholly suppressed owing to nanozyme-enhanced PDT-PTT combined therapy, providing better therapeutic effects compared to single-mode phototherapy. Thus, the present Ce6@CuS-Pt/PEG NPs can act as an efficient multifunctional nanoplatform for tumor therapy.